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Fear and the Defense Cascade: Clinical Implications and Management.

Kozlowska K, Walker P, McLean L, Carrive P - Harv Rev Psychiatry (2015 Jul-Aug)

Bottom Line: Each of these defense reactions has a distinctive neural pattern mediated by a common neural pathway: activation and inhibition of particular functional components in the amygdala, hypothalamus, periaqueductal gray, and sympathetic and vagal nuclei.Understanding the signature patterns of these innate responses--the particular components that combine to yield the given pattern of defense-is important for developing treatment interventions.Effective interventions aim to activate or deactivate one or more components of the signature neural pattern, thereby producing a shift in the neural pattern and, with it, in mind-body state.

View Article: PubMed Central - PubMed

Affiliation: From the Disciplines of Psychiatry (Drs. Kozlowska and McLean) and of Paediatrics and Child Health (Dr. Kozlowska), University of Sydney Medical School; Brain Dynamics Centre, Westmead Millennium Institute for Medical Research and University of Sydney Medical School (Dr. Kozlowska); The Children's Hospital at Westmead, Westmead, New South Wales (Dr. Kozlowska); Peter Walker & Associates, Randwick, New South Wales (Mr. Walker); Brain and Mind Research Institute, University of Sydney Medical School (Dr. McLean); Westmead Psychotherapy Program and Sydney West and Greater Southern Training Network, Western Sydney Local Health District (Dr. McLean); Department of Anatomy, School of Medical Sciences, University of New South Wales (Dr. Carrive) (all Australia).

ABSTRACT
Evolution has endowed all humans with a continuum of innate, hard-wired, automatically activated defense behaviors, termed the defense cascade. Arousal is the first step in activating the defense cascade; flight or fight is an active defense response for dealing with threat; freezing is a flight-or-fight response put on hold; tonic immobility and collapsed immobility are responses of last resort to inescapable threat, when active defense responses have failed; and quiescent immobility is a state of quiescence that promotes rest and healing. Each of these defense reactions has a distinctive neural pattern mediated by a common neural pathway: activation and inhibition of particular functional components in the amygdala, hypothalamus, periaqueductal gray, and sympathetic and vagal nuclei. Unlike animals, which generally are able to restore their standard mode of functioning once the danger is past, humans often are not, and they may find themselves locked into the same, recurring pattern of response tied in with the original danger or trauma. Understanding the signature patterns of these innate responses--the particular components that combine to yield the given pattern of defense-is important for developing treatment interventions. Effective interventions aim to activate or deactivate one or more components of the signature neural pattern, thereby producing a shift in the neural pattern and, with it, in mind-body state. The process of shifting the neural pattern is the necessary first step in unlocking the patient's trauma response, in breaking the cycle of suffering, and in helping the patient to adapt to, and overcome, past trauma.

No MeSH data available.


Related in: MedlinePlus

Collapsed immobility in an opossum. The trunk and limbs are limp and immobile. The animal has the appearance of being dead. The term death feint has been used to describe collapsed immobility in animals.85
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Figure 5: Collapsed immobility in an opossum. The trunk and limbs are limp and immobile. The animal has the appearance of being dead. The term death feint has been used to describe collapsed immobility in animals.85

Mentions: Collapsed immobility was first identified by Rivers7 nearly a century ago and was only recently (2004) added to the human defense cascade by Bracha.16 Many different names are used as synonyms for collapsed immobility, including collapse,7,21flaccid immobility,16,35faint,16,35fear-induced fainting,16vasovagal syncope,36neurocardiogenic syncope,37 and fainting in the context of a blood phobia.16,35,38,39 Although certain animal species—for example, rabbits, opossums, tegus lizards, and hummingbirds***** (see Figure 5 and Supplemental Text Box 3, http://links.lww.com/HRP/A10)—sometimes respond to forced restraint or capture with collapsed immobility rather than tonic immobility, the upright posture of humans makes them especially prone to the bradycardia-induced hypoxia that leads to collapsed immobility.34


Fear and the Defense Cascade: Clinical Implications and Management.

Kozlowska K, Walker P, McLean L, Carrive P - Harv Rev Psychiatry (2015 Jul-Aug)

Collapsed immobility in an opossum. The trunk and limbs are limp and immobile. The animal has the appearance of being dead. The term death feint has been used to describe collapsed immobility in animals.85
© Copyright Policy
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC4495877&req=5

Figure 5: Collapsed immobility in an opossum. The trunk and limbs are limp and immobile. The animal has the appearance of being dead. The term death feint has been used to describe collapsed immobility in animals.85
Mentions: Collapsed immobility was first identified by Rivers7 nearly a century ago and was only recently (2004) added to the human defense cascade by Bracha.16 Many different names are used as synonyms for collapsed immobility, including collapse,7,21flaccid immobility,16,35faint,16,35fear-induced fainting,16vasovagal syncope,36neurocardiogenic syncope,37 and fainting in the context of a blood phobia.16,35,38,39 Although certain animal species—for example, rabbits, opossums, tegus lizards, and hummingbirds***** (see Figure 5 and Supplemental Text Box 3, http://links.lww.com/HRP/A10)—sometimes respond to forced restraint or capture with collapsed immobility rather than tonic immobility, the upright posture of humans makes them especially prone to the bradycardia-induced hypoxia that leads to collapsed immobility.34

Bottom Line: Each of these defense reactions has a distinctive neural pattern mediated by a common neural pathway: activation and inhibition of particular functional components in the amygdala, hypothalamus, periaqueductal gray, and sympathetic and vagal nuclei.Understanding the signature patterns of these innate responses--the particular components that combine to yield the given pattern of defense-is important for developing treatment interventions.Effective interventions aim to activate or deactivate one or more components of the signature neural pattern, thereby producing a shift in the neural pattern and, with it, in mind-body state.

View Article: PubMed Central - PubMed

Affiliation: From the Disciplines of Psychiatry (Drs. Kozlowska and McLean) and of Paediatrics and Child Health (Dr. Kozlowska), University of Sydney Medical School; Brain Dynamics Centre, Westmead Millennium Institute for Medical Research and University of Sydney Medical School (Dr. Kozlowska); The Children's Hospital at Westmead, Westmead, New South Wales (Dr. Kozlowska); Peter Walker & Associates, Randwick, New South Wales (Mr. Walker); Brain and Mind Research Institute, University of Sydney Medical School (Dr. McLean); Westmead Psychotherapy Program and Sydney West and Greater Southern Training Network, Western Sydney Local Health District (Dr. McLean); Department of Anatomy, School of Medical Sciences, University of New South Wales (Dr. Carrive) (all Australia).

ABSTRACT
Evolution has endowed all humans with a continuum of innate, hard-wired, automatically activated defense behaviors, termed the defense cascade. Arousal is the first step in activating the defense cascade; flight or fight is an active defense response for dealing with threat; freezing is a flight-or-fight response put on hold; tonic immobility and collapsed immobility are responses of last resort to inescapable threat, when active defense responses have failed; and quiescent immobility is a state of quiescence that promotes rest and healing. Each of these defense reactions has a distinctive neural pattern mediated by a common neural pathway: activation and inhibition of particular functional components in the amygdala, hypothalamus, periaqueductal gray, and sympathetic and vagal nuclei. Unlike animals, which generally are able to restore their standard mode of functioning once the danger is past, humans often are not, and they may find themselves locked into the same, recurring pattern of response tied in with the original danger or trauma. Understanding the signature patterns of these innate responses--the particular components that combine to yield the given pattern of defense-is important for developing treatment interventions. Effective interventions aim to activate or deactivate one or more components of the signature neural pattern, thereby producing a shift in the neural pattern and, with it, in mind-body state. The process of shifting the neural pattern is the necessary first step in unlocking the patient's trauma response, in breaking the cycle of suffering, and in helping the patient to adapt to, and overcome, past trauma.

No MeSH data available.


Related in: MedlinePlus